NCT00143663
- Objective
- Not yet disclosed
- Design
- Not yet disclosed
- Participants
- Not yet disclosed
- Primary endpoint
- Not yet disclosed
- Results
- Results not yet reported in available records
pharma · Diabetes Mellitus · Hemophilia A
Takeda is a pharma organization headquartered in Cambridge, USA. Primary therapeutic focus areas include Diabetes Mellitus, Hemophilia A, Crohn's Disease, Hypertension, Type 2 Diabetes Mellitus. NovaPharmaNews links 1179
Phase 3 · small molecule · Dyslipidemia
Lapaquistat Acetate (internal code 01-04-TL-475-008) is a small-molecule therapeutic developed by Takeda for the treatment of dyslipidemia, a disorder characterized by abnormal lipid levels in the blood. The program reached Phase 3 clinical development and has completed its trial phase as of May 2012. Dyslipidemia repr
Internal code 01-04-TL-475-008
Lapaquistat Acetate (internal code 01-04-TL-475-008) is a small-molecule therapeutic developed by Takeda for the treatment of dyslipidemia, a disorder characterized by abnormal lipid levels in the blood. The program reached Phase 3 clinical development and has completed its trial phase as of May 2012. Dyslipidemia represents a significant cardiovascular risk factor, and therapeutic options targeting lipid metabolism remain clinically important. Takeda's development of lapaquistat acetate reflects the sponsor's strategic focus on metabolic and cardiovascular disease areas. The program's completion of Phase 3 trials indicates advancement through late-stage clinical evaluation, though the specific mechanism of action and molecular target remain undisclosed in available records. The latest documented milestone occurred on 24 May 2012, marking the conclusion of Phase 3 activities. Regulatory approval status, commercial launch timelines, and peak sales projections have not been disclosed. The competitive landscape for dyslipidemia treatment includes established agents such as atorvastatin and emerging therapies including monoclonal antibodies targeting PCSK9 (evolocumab and alirocumab), as well as combination approaches and novel lipid-modulating mechanisms currently in development across the industry.
Dyslipidemia affects millions of patients globally and represents a modifiable risk factor for atherosclerotic cardiovascular disease, stroke, and myocardial infarction. Current standard-of-care therapies, primarily statins and ezetimibe, achieve adequate lipid control in many but not all patients; a substantial population remains at elevated cardiovascular risk despite conventional therapy. The emergence of PCSK9 inhibitors has expanded treatment options for patients with familial hypercholesterolemia and statin-intolerant populations, yet cost and accessibility constraints limit widespread adoption. Novel mechanisms targeting alternative pathways in lipid metabolism—such as those potentially represented by lapaquistat acetate—address the unmet need for efficacious, well-tolerated, and economically viable dyslipidemia therapies. The commercial significance of the dyslipidemia market is substantial, with billions in annual sales across multiple therapeutic classes. Takeda's development of lapaquistat acetate during the 2000s positioned the company within a highly competitive landscape dominated by established players (Pfizer's atorvastatin) and emerging innovators (Amgen, Regeneron). However, the program's completion status and lack of subsequent regulatory advancement suggest either strategic deprioritization, development challenges, or successful technology transfer. Understanding lapaquistat acetate's development trajectory provides insight into Takeda's R&D portfolio decisions and the evolving competitive dynamics in lipid-lowering therapy.
Drug Class: Lipid-modulating small molecule (specific class not yet disclosed)
Modality: Small-molecule oral therapeutic
Indication: Dyslipidemia
Mechanism of Action: Not yet disclosed
Molecular Target: Not yet disclosed
Route of Administration: Not yet disclosed
Related Therapies: Lapaquistat acetate competes within the dyslipidemia treatment landscape alongside established statins (atorvastatin), ezetimibe, PCSK9 inhibitors (evolocumab, alirocumab), and combination therapies. The program represents Takeda's approach to lipid metabolism modulation during the Phase 3 era of development.
Patent Status: Not yet disclosed
First Approval: Not yet disclosed
Also known as: disorder of lipid metabolism, dyslipidaemia, dyslipidemia, lipid metabolism disorder
An inherited metabolic disorder caused by an enzyme deficiency, resulting in an inability to oxidize fatty acids for energy production.
ClinicalTrials.gov lists 14 registered studies for Lipid Metabolism Disorder (AACT aggregate).
Phase breakdown: NA (11), PHASE1 (1), PHASE3 (1), PHASE4 (1)
Common investigational therapies:
Disease data sourced from MONDO Disease Ontology (MONDO:0002525), Orphanet — inherited lipid metabolism disorder, NCT00651963, NCT01071278, NCT02603770, NCT03236116, NCT03392701, AACT (ClinicalTrials.gov aggregate), ClinicalTrials.gov, Open Targets Platform (CC BY 4.0).
Phase 3 Completed
Latest documented milestone indicates completion of Phase 3 clinical trial activities.
The dyslipidemia therapeutic market encompasses multiple mechanistic approaches and competitive tiers. Established therapies include Pfizer's atorvastatin (statin class, approved), representing the standard-of-care baseline. Takeda itself markets azilsartan, an angiotensin II receptor blocker approved for hypertension, which may have ancillary lipid effects. Monoclonal antibody PCSK9 inhibitors—evolocumab (Amgen, approved) and alirocumab (Regeneron, approved)—represent the most recent major innovation, targeting patients with familial hypercholesterolemia or statin intolerance. Combination approaches include omega-3-atorvastatin (United Therapeutics Europe) and fimasartan-rosuvastatin (Yung NA, Phase 3). Emerging competitors in Phase 2–3 development include ARO-APOC3 (Arrowhead, targeting apolipoprotein C-III), ETC-1002 (Esperion, Phase 2), and PURSUIT (AstraZeneca, Phase 2). Lapaquistat acetate's competitive positioning depends on its undisclosed mechanism; if targeting a novel pathway distinct from statins, PCSK9 inhibitors, or apolipoprotein modulators, it could address specific patient subpopulations. However, the program's completion status without documented regulatory advancement suggests it may not have achieved competitive differentiation sufficient to warrant continued development or commercialization.
| Therapy | Company | Mechanism | Status |
|---|---|---|---|
| EVOLOCUMAB | Amgen | small_molecule | approved |
| Azilsartan | Takeda | small_molecule | approved |
| Omega 3-Atorvastatin | United Therapeutics Europe Ltd | small_molecule | approved |
| Atorvastatin | Pfizer | small_molecule | approved |
| Alirocumab | Regeneron UK Limited | small_molecule | approved |
| Fimasartan and Rosuvastatin | Yung NA | small_molecule | phase_3 |
| AMIL/25/Obi-Dys/001 | A.Menarini Australia Pty Limited | small_molecule | phase_3 |
| ARO-APOC3 | Arrowhead Pharmaceuticals Ireland Limited | small_molecule | phase_2 |
| ETC-1002 | Esperion Therapeutics | small_molecule | phase_2 |
| PURSUIT | AstraZeneca AB | small_molecule | phase_2 |
| VOLANESORSEN SODIUM | — | Apolipoprotein C-III mRNA antisense inhibitor | Approved |
| TORIPALIMAB | — | Programmed cell death protein 1 antagonist | Approved |
| SIMVASTATIN | — | HMG-CoA reductase inhibitor | Approved |
| ROSUVASTATIN CALCIUM | — | HMG-CoA reductase inhibitor | Approved |
| PREDNISONE | — | Glucocorticoid receptor agonist | Approved |
| PREDNISOLONE | — | Glucocorticoid receptor agonist | Approved |
| PRAVASTATIN SODIUM | — | HMG-CoA reductase inhibitor | Approved |
| PITAVASTATIN CALCIUM | — | HMG-CoA reductase inhibitor | Approved |
| MIPOMERSEN SODIUM | — | Apo-B 100 mRNA antisense inhibitor | Approved |
| MIGLUSTAT | — | Ceramide glucosyltransferase inhibitor | Approved |
Additional associated therapies sourced from Open Targets Platform (CC0), linked to NovaPharmaNews drug profiles where matched.
FDA Status: Not yet disclosed
EMA Status: Not yet disclosed
PMDA (Japan) Status: Not yet disclosed
NMPA (China) Status: Not yet disclosed
Approval History: No regulatory approvals have been disclosed for lapaquistat acetate. The program completed Phase 3 clinical trials as of May 2012; subsequent regulatory filing, approval, or development decisions have not been publicly documented in available records. The absence of disclosed regulatory milestones following Phase 3 completion suggests the program may have been discontinued, deprioritized, or transitioned to a different development pathway not reflected in current intelligence.
Lapaquistat acetate is a small-molecule therapeutic in development for the treatment of dyslipidemia, a disorder characterized by abnormal blood lipid levels that increase cardiovascular risk.
Lapaquistat acetate is developed by Takeda Pharmaceutical Company Limited. No manufacturing partners or licensees have been disclosed.
The specific mechanism of action of lapaquistat acetate has not been disclosed in available records.
The molecular target of lapaquistat acetate has not been disclosed in available records.
No FDA approval has been disclosed for lapaquistat acetate. The program completed Phase 3 trials in 2012, but subsequent regulatory status remains undisclosed.
Lapaquistat acetate completed Phase 3 clinical trials as of May 2012. No subsequent development milestones or regulatory actions have been disclosed, suggesting the program may be discontinued or deprioritized.
Two clinical trials are associated with lapaquistat acetate: NCT00143663 and NCT00487994. Detailed trial designs, participant populations, and results have not been disclosed in available records.
Comparative efficacy and safety data between lapaquistat acetate and atorvastatin have not been disclosed. Atorvastatin is an established statin approved for dyslipidemia; lapaquistat acetate's mechanism and clinical profile remain undisclosed.
Competitors in dyslipidemia treatment include statins (atorvastatin, rosuvastatin), PCSK9 inhibitors (evolocumab, alirocumab), combination therapies, and emerging agents targeting alternative lipid pathways such as apolipoprotein C-III modulators.
The internal development code for lapaquistat acetate is 01-04-TL-475-008.
The first disclosure date for lapaquistat acetate has not been documented in available records.
Projected peak sales figures for lapaquistat acetate have not been disclosed.
No development partner or licensee has been disclosed for lapaquistat acetate; Takeda is listed as the sole sponsor.
The route of administration for lapaquistat acetate has not been disclosed in available records.
No EMA approval or regulatory status has been disclosed for lapaquistat acetate in Europe.
The reasons for lapaquistat acetate's apparent discontinuation following Phase 3 completion in 2012 have not been disclosed; possible factors include efficacy/safety concerns, competitive pressures, or strategic portfolio decisions by Takeda.
Lapaquistat Acetate → Drug → Target → Indication → Company → Trials → Competitors
Strategic Implications: Lapaquistat acetate's Phase 3 completion in 2012 without subsequent disclosed regulatory advancement suggests Takeda may have encountered development challenges, efficacy/safety concerns, or strategic portfolio realignment. The absence of post-2012 milestones indicates the program likely did not progress to regulatory filing or commercialization, representing a sunk R&D investment in a competitive dyslipidemia market.
Competitive Implications: The dyslipidemia market has consolidated around statins (generic atorvastatin dominates by volume) and PCSK9 inhibitors (evolocumab, alirocumab, now with generic/biosimilar pressure). Novel mechanisms like lapaquistat acetate would require compelling differentiation—superior efficacy, safety, tolerability, or cost—to justify market entry. The program's apparent discontinuation reflects the high bar for novel lipid-modulating agents in a market saturated with effective, low-cost alternatives.
Future Catalysts: No future milestones have been disclosed. If Takeda resumes development or out-licenses lapaquistat acetate, regulatory filing or partnership announcements would represent key catalysts. Alternatively, publication of Phase 3 data in peer-reviewed literature could provide clinical evidence and inform competitive positioning.
Expected Milestones: None disclosed. The program's status as of the latest available intelligence (May 2012) does not indicate planned regulatory submissions, approvals, or commercial launches.
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Intelligence compiled from public regulatory and clinical sources (FDA, EMA, ClinicalTrials.gov and company disclosures). Figures may be editorial or analyst estimates; verify against primary sources before relying on them.